Developing genetic reagents to facilitate recovery, analysis, and maintenance of mouse mutations
Rinchik, Eugene M.
2014-02-25 00:00:00
Because the mouse has become the pre-eminent model system for functional genomics and analysis of complex-systems/pathways in mammals, there has been an escalation of interest in the generation and analysis of mouse mutations to use as tools in these analyses. I argue here for a parallel investment in continuing the development of appropriately marked chromosomal rearrangements to use as genetic reagents in mutation recovery, analysis, and maintenance crosses. Specifically, visibly marked interstitial chromosomal deletions can be valuable for regional mutagenesis screens for recessives based on hemizygosity, and they can also be used to simplify genetic fine-mapping as a prelude to gene identification based on positional cloning/candidacy strategies. Dominantly marked chromosomal inversions that also manifest some kind of recessive phenotype can be exploited in more extensive regional mutagenesis screens based on homozygosity, and are invaluable for simplified, low-cost and error-reduced mutant-stock maintenance. Also discussed are several issues concerning genetic background, particularly from the point of view of genetic-reagent resource development.
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Abstract

Because the mouse has become the pre-eminent model system for functional genomics and analysis of complex-systems/pathways in mammals, there has been an escalation of interest in the generation and analysis of mouse mutations to use as tools in these analyses. I argue here for a parallel investment in continuing the development of appropriately marked chromosomal rearrangements to use as genetic reagents in mutation recovery, analysis, and maintenance crosses. Specifically, visibly marked interstitial chromosomal deletions can be valuable for regional mutagenesis screens for recessives based on hemizygosity, and they can also be used to simplify genetic fine-mapping as a prelude to gene identification based on positional cloning/candidacy strategies. Dominantly marked chromosomal inversions that also manifest some kind of recessive phenotype can be exploited in more extensive regional mutagenesis screens based on homozygosity, and are invaluable for simplified, low-cost and error-reduced mutant-stock maintenance. Also discussed are several issues concerning genetic background, particularly from the point of view of genetic-reagent resource development.